// Copyright (c) 2017 Emmanuel Gil Peyrot // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. use crate::ns; use crate::Element; use jid::Jid; use std::net::IpAddr; use xso::error::{Error, FromElementError}; generate_attribute!( /// The type of the connection being proposed by this candidate. Type, "type", { /// Direct connection using NAT assisting technologies like NAT-PMP or /// UPnP-IGD. Assisted => "assisted", /// Direct connection using the given interface. Direct => "direct", /// SOCKS5 relay. Proxy => "proxy", /// Tunnel protocol such as Teredo. Tunnel => "tunnel", }, Default = Direct ); generate_attribute!( /// Which mode to use for the connection. Mode, "mode", { /// Use TCP, which is the default. Tcp => "tcp", /// Use UDP. Udp => "udp", }, Default = Tcp ); generate_id!( /// An identifier for a candidate. CandidateId ); generate_id!( /// An identifier for a stream. StreamId ); generate_element!( /// A candidate for a connection. Candidate, "candidate", JINGLE_S5B, attributes: [ /// The identifier for this candidate. cid: Required = "cid", /// The host to connect to. host: Required = "host", /// The JID to request at the given end. jid: Required = "jid", /// The port to connect to. port: Option = "port", /// The priority of this candidate, computed using this formula: /// priority = (2^16)*(type preference) + (local preference) priority: Required = "priority", /// The type of the connection being proposed by this candidate. type_: Default = "type", ] ); impl Candidate { /// Creates a new candidate with the given parameters. pub fn new(cid: CandidateId, host: IpAddr, jid: Jid, priority: u32) -> Candidate { Candidate { cid, host, jid, priority, port: Default::default(), type_: Default::default(), } } /// Sets the port of this candidate. pub fn with_port(mut self, port: u16) -> Candidate { self.port = Some(port); self } /// Sets the type of this candidate. pub fn with_type(mut self, type_: Type) -> Candidate { self.type_ = type_; self } } /// The payload of a transport. #[derive(Debug, Clone, PartialEq)] pub enum TransportPayload { /// The responder informs the initiator that the bytestream pointed by this /// candidate has been activated. Activated(CandidateId), /// A list of suggested candidates. Candidates(Vec), /// Both parties failed to use a candidate, they should fallback to another /// transport. CandidateError, /// The candidate pointed here should be used by both parties. CandidateUsed(CandidateId), /// This entity can’t connect to the SOCKS5 proxy. ProxyError, /// XXX: Invalid, should not be found in the wild. None, } /// Describes a Jingle transport using a direct or proxied connection. #[derive(Debug, Clone, PartialEq)] pub struct Transport { /// The stream identifier for this transport. pub sid: StreamId, /// The destination address. pub dstaddr: Option, /// The mode to be used for the transfer. pub mode: Mode, /// The payload of this transport. pub payload: TransportPayload, } impl Transport { /// Creates a new transport element. pub fn new(sid: StreamId) -> Transport { Transport { sid, dstaddr: None, mode: Default::default(), payload: TransportPayload::None, } } /// Sets the destination address of this transport. pub fn with_dstaddr(mut self, dstaddr: String) -> Transport { self.dstaddr = Some(dstaddr); self } /// Sets the mode of this transport. pub fn with_mode(mut self, mode: Mode) -> Transport { self.mode = mode; self } /// Sets the payload of this transport. pub fn with_payload(mut self, payload: TransportPayload) -> Transport { self.payload = payload; self } } impl TryFrom for Transport { type Error = FromElementError; fn try_from(elem: Element) -> Result { check_self!(elem, "transport", JINGLE_S5B); check_no_unknown_attributes!(elem, "transport", ["sid", "dstaddr", "mode"]); let sid = get_attr!(elem, "sid", Required); let dstaddr = get_attr!(elem, "dstaddr", Option); let mode = get_attr!(elem, "mode", Default); let mut payload = None; for child in elem.children() { payload = Some(if child.is("candidate", ns::JINGLE_S5B) { let mut candidates = match payload { Some(TransportPayload::Candidates(candidates)) => candidates, Some(_) => return Err(Error::Other( "Non-candidate child already present in JingleS5B transport element.", ) .into()), None => vec![], }; candidates.push(Candidate::try_from(child.clone())?); TransportPayload::Candidates(candidates) } else if child.is("activated", ns::JINGLE_S5B) { if payload.is_some() { return Err(Error::Other( "Non-activated child already present in JingleS5B transport element.", ) .into()); } let cid = get_attr!(child, "cid", Required); TransportPayload::Activated(cid) } else if child.is("candidate-error", ns::JINGLE_S5B) { if payload.is_some() { return Err(Error::Other( "Non-candidate-error child already present in JingleS5B transport element.", ) .into()); } TransportPayload::CandidateError } else if child.is("candidate-used", ns::JINGLE_S5B) { if payload.is_some() { return Err(Error::Other( "Non-candidate-used child already present in JingleS5B transport element.", ) .into()); } let cid = get_attr!(child, "cid", Required); TransportPayload::CandidateUsed(cid) } else if child.is("proxy-error", ns::JINGLE_S5B) { if payload.is_some() { return Err(Error::Other( "Non-proxy-error child already present in JingleS5B transport element.", ) .into()); } TransportPayload::ProxyError } else { return Err(Error::Other("Unknown child in JingleS5B transport element.").into()); }); } let payload = payload.unwrap_or(TransportPayload::None); Ok(Transport { sid, dstaddr, mode, payload, }) } } impl From for Element { fn from(transport: Transport) -> Element { Element::builder("transport", ns::JINGLE_S5B) .attr("sid", transport.sid) .attr("dstaddr", transport.dstaddr) .attr("mode", transport.mode) .append_all(match transport.payload { TransportPayload::Candidates(candidates) => candidates .into_iter() .map(Element::from) .collect::>(), TransportPayload::Activated(cid) => { vec![Element::builder("activated", ns::JINGLE_S5B) .attr("cid", cid) .build()] } TransportPayload::CandidateError => { vec![Element::builder("candidate-error", ns::JINGLE_S5B).build()] } TransportPayload::CandidateUsed(cid) => { vec![Element::builder("candidate-used", ns::JINGLE_S5B) .attr("cid", cid) .build()] } TransportPayload::ProxyError => { vec![Element::builder("proxy-error", ns::JINGLE_S5B).build()] } TransportPayload::None => vec![], }) .build() } } #[cfg(test)] mod tests { use super::*; use std::str::FromStr; #[cfg(target_pointer_width = "32")] #[test] fn test_size() { assert_size!(Type, 1); assert_size!(Mode, 1); assert_size!(CandidateId, 12); assert_size!(StreamId, 12); assert_size!(Candidate, 56); assert_size!(TransportPayload, 16); assert_size!(Transport, 44); } #[cfg(target_pointer_width = "64")] #[test] fn test_size() { assert_size!(Type, 1); assert_size!(Mode, 1); assert_size!(CandidateId, 24); assert_size!(StreamId, 24); assert_size!(Candidate, 88); assert_size!(TransportPayload, 32); assert_size!(Transport, 88); } #[test] fn test_simple() { let elem: Element = "" .parse() .unwrap(); let transport = Transport::try_from(elem).unwrap(); assert_eq!(transport.sid, StreamId(String::from("coucou"))); assert_eq!(transport.dstaddr, None); assert_eq!(transport.mode, Mode::Tcp); match transport.payload { TransportPayload::None => (), _ => panic!("Wrong element inside transport!"), } } #[test] fn test_serialise_activated() { let elem: Element = "".parse().unwrap(); let transport = Transport { sid: StreamId(String::from("coucou")), dstaddr: None, mode: Mode::Tcp, payload: TransportPayload::Activated(CandidateId(String::from("coucou"))), }; let elem2: Element = transport.into(); assert_eq!(elem, elem2); } #[test] fn test_serialise_candidate() { let elem: Element = "".parse().unwrap(); let transport = Transport { sid: StreamId(String::from("coucou")), dstaddr: None, mode: Mode::Tcp, payload: TransportPayload::Candidates(vec![Candidate { cid: CandidateId(String::from("coucou")), host: IpAddr::from_str("127.0.0.1").unwrap(), jid: Jid::new("coucou@coucou").unwrap(), port: None, priority: 0u32, type_: Type::Direct, }]), }; let elem2: Element = transport.into(); assert_eq!(elem, elem2); } }